Transmitting device, transmitting method, receiving device, and receiving method

1. A display unit comprising: a memory; and circuitry coupled to the memory and configured to receive transmission video data obtained by applying a gamma curve to input video data having first luminance value range from a low luminance value to a first high luminance value, the transmission video data having a second luminance value range from the low luminance value to a second high luminance value having a smaller value than the first high luminance value; and convert luminance values of the transmission video data having the second high luminance value to luminance values greater than the second high luminance value and smaller than or equal to a third high luminance value in order to increase a maximum luminance value of the transmission video data based on auxiliary information received together with the transmission video data, without converting any luminance values of the transmission video data smaller than the second high luminance value, wherein the transmission video data is video data obtained by executing a process for converting luminance values of output video data obtained by applying the gamma curve to the input video data the luminance values of the output video data falling into a range between the second high luminance value and the first high luminance value, the converted luminance values having the second high luminance value.

2. The display unit of claim 1 , wherein the circuitry converts the luminance values of the transmission video data having the second high luminance value by applying a filter specified in filter information contained in the auxiliary information.

3. The display unit of claim 1 , wherein the maximum luminance value is determined based on a luminance dynamic range of a monitor contained in the auxiliary information.

4. The display unit of claim 1 , wherein the circuitry is further configured to receive the transmission video data from a transport stream; execute a decoding process of the transmission video data, including extracting a supplemental enhancement information (SEI) message inserted into the transport stream; convert the first luminance value range responsive to the auxiliary information; and convert a first color space of the transmission video data to second color space.

5. The display unit of claim 4 , wherein the first color space in a YUV color space and the second color space is an RGB color space.

6. The display unit of claim 4 , wherein the circuitry is further configured to determine whether tone mapping SEI information and HDR conversion SEI information have been inserted into the transmission video stream.

7. The display unit of claim 4 , wherein the circuitry is further configured to extract an SEI message inserted into the transmission video data, and to determine whether tone mapping SEI information and HDR conversion SEI information have been inserted into the transmission video data.

8. A display unit comprising: a memory; and circuitry coupled to the memory and configured to receive transmission video data obtained by applying a gamma curve to input video data having first luminance value range from a low luminance value to a first high luminance value, the transmission video data having a second luminance value range from the low luminance value to a second high luminance value having a smaller value than the first high luminance value; and convert luminance values of the transmission video data in a range between a threshold luminance value and the second high luminance value to luminance values greater than the threshold luminance value and smaller than or equal to a third high luminance value greater than the second high luminance value in order to increase a maximum luminance value of the transmission video data based on auxiliary information received together with the transmission video data, without converting any luminance values of the transmission video data smaller than the threshold luminance value.

9. The display unit of claim 8 , wherein the transmission video data is video data obtained by executing a process for converting luminance values of output video data obtained by applying the gamma curve to the input video data, the luminance values of the output video data falling into a range between the first high luminance value and the threshold luminance value lower than the second high luminance value, the converted luminance values falling into a range between the threshold luminance value and the second high luminance value, and the circuitry converts luminance values of the transmission video data in the range between the threshold luminance value and the second high luminance value into luminance values in a range between the threshold luminance value and the third high luminance value by applying a filter specified in filter information contained in the auxiliary information.

10. The display unit of claim 8 , wherein the transmission video data is video data obtained by executing a process for converting luminance values of output video data obtained by applying the gamma curve to the input video data, the luminance values of the output video data falling into a range between the first high luminance value and the threshold luminance value lower than the second high luminance value, the converted luminance values falling into a range between the threshold luminance value and the second high luminance value, and the circuitry converts luminance values of the transmission video data in the range between the threshold luminance value and the second high luminance value into luminance values in a range between the threshold luminance value and the third high luminance value by applying conversion curve information contained in the auxiliary information.